CN111439458A - Multilayer bottle blank and bottle with ceramic texture - Google Patents

Abstract

The invention provides a multilayer bottle blank with ceramic texture, the wall of the multilayer bottle blank is of at least two-layer structure, the multilayer bottle blank comprises an outer layer and a bottom layer from outside to inside, the outer layer is made of a first material, the bottom layer is made of a second material, the second material is different from the first material, the outer layer made of the first material is a transparent layer, the bottom layer made of the second material forms a non-transparent layer, the second material is a mixed material of the first material and a color master, and the color master accounts for 5% -20% of the mixed material. The bottle formed by the multilayer bottle blank through the blow molding process has the advantages of being light-tight, avoiding the influence on the product quality caused by the irradiation of light on some special bottled products, having ceramic texture and being more attractive compared with the existing plastic bottle.

Description

Multilayer bottle blank and bottle with ceramic texture

Technical Field

The invention relates to a multilayer plastic container, in particular to a multilayer bottle blank with ceramic texture and a bottle.

Background

With the rapid development of plastic injection and blow molding technologies, plastic bottles are widely used, especially in the beverage industry. In order to highlight the particularity and significance of the product, many beverage manufacturers add various colors, such as blue, light blue, green, and other single-layer structure bottles or multi-layer bottles with gradually changed colors, to the material for manufacturing the bottle blank for blow molding under the premise of ensuring various filling performance requirements of the beverage bottle, so that the product is visually attractive in appearance and impressive to consumers. In the single layer bottle 10 'shown in fig. 1, the wall of the preform has only one layer 1', which is the most common plastic bottle structure, and if it is desired to add color to the single layer bottle, the plastic material is added with pigment. A bottle 10 'of multilayer structure, as shown in fig. 2, having a wall 1' with 3 layers of structure, respectively an outer layer 11 ', an intermediate layer 12', and a bottom layer 13 ', wherein the outer layer 11' and the bottom layer 13 'are plastic layers and the intermediate layer 12' is a colored layer, enables the production of a preform structure of a color-graded plastic bottle having a more attractive appearance than a bottle of single-layer structure.

However, the existing plastic bottles cannot meet the requirements of dairy products, which are in a variety of varieties, especially UHT-treated milk, pasteurized milk and various yoghurts, wherein some vitamins (e.g. E vitamins), proteins and fats are degraded by light, while the existing plastic bottles are mostly transparent or translucent, and the original nutritional characteristics of the dairy products packaged by the existing plastic bottles are reduced after several days, so that the original taste and nutrition cannot be maintained.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a multilayer bottle blank with ceramic texture and a bottle, which can block light, ensure that the quality of products in the bottle is not influenced by the light, have ceramic texture and improve the attractiveness of the plastic bottle.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multilayer bottle blank with ceramic texture is characterized in that the wall of the multilayer bottle blank is of a two-layer structure at least, the multilayer bottle blank comprises an outer layer and a bottom layer from outside to inside, the outer layer is made of a first material, the bottom layer is made of a second material, the second material is different from the first material, the outer layer made of the first material is a transparent layer, the bottom layer made of the second material forms a non-light-pervious layer, the second material is a mixed material of the first material and color master, and the color master accounts for 5% -20% of the mixed material in proportion.

Further, the color master is selected from a gorgeous porcelain imitation, a glomus light inhibitor and a dutch color light inhibitor.

Further, the first material is selected from PET, PP, PETG.

Further, the outer layer has a greater thickness than the bottom layer.

Further, the thickness ratio of the bottom layer to the outer layer is 1: 1.5-1: 2.3.

Furthermore, the weight of the outer layer accounts for 60-70% of the total weight of the bottle blank, and the weight of the bottom layer accounts for 30-40% of the total weight of the bottle blank.

Further, the multilayer bottle blank further comprises an inner layer, the inner layer is located on the innermost side of the multilayer bottle blank, and the inner layer is made of the first material and is a transparent layer.

Further, the thickness of the outer layer is larger than that of the inner layer, and the thickness of the bottom layer is smaller than that of the inner layer.

Furthermore, the multilayer bottle blank adopts a multilayer co-injection molding mode, the outer layer and the inner layer have a common injection molding source, and the bottom layer has an independent injection molding source.

The invention also provides a bottle with ceramic texture, which is formed by blow molding the multilayer bottle blank.

Further, the bottle has a total light transmittance of 1% or less at a wavelength of 400nm or less.

Further, the bottle has a total light transmittance of 10% or less at a wavelength of 400 to 600 nm.

The multilayer bottle blank and the bottle have the following beneficial effects:

(1) the bottle blank and the bottle are provided with the light-tight layers, so that visible light can be prevented from transmitting, the original taste and nutritional characteristics of special bottled products (such as dairy products) sensitive to light are ensured, and the influence on the product quality caused by the irradiation of the light on the products is avoided;

(2) the structural design and the material design of the bottle blank enable the surface of a plastic bottle formed by blow molding to be bright, the light transmission is weak, the reflectivity is strong, the ceramic texture is shown, and the plastic bottle is more attractive compared with the existing plastic bottle.

Drawings

The present invention will be further described and illustrated with reference to the following drawings.

FIG. 1 is a schematic view of a prior art bottle preform with a single layer structure.

Fig. 2 is a schematic view of a prior art bottle preform having a multi-layer structure.

Fig. 3 is a schematic view of a multi-layered bottle preform having a ceramic texture according to a preferred embodiment of the present invention.

Fig. 4 is an enlarged view at a in fig. 3.

Fig. 5 is a schematic view showing refraction and reflection of light rays by the bottle having a ceramic texture according to the present invention.

FIG. 6 is a graph showing the measurement of the light transmittance of the bottle.

Fig. 7 is a schematic view of a multi-layered preform of another shape in accordance with the present invention.

Fig. 8 is a schematic view of a bottle preform having a multilayer structure according to a second embodiment of the present invention.

Fig. 9 is an enlarged view at B in fig. 8.

Detailed Description

The technical solution of the present invention will be more clearly and completely explained by the description of the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1

As shown in fig. 3 and 4, the multi-layered preform 10 having a ceramic texture according to the preferred embodiment of the present invention has at least a two-layered structure, and the wall 1 of the multi-layered preform includes at least an outer layer 11 and a bottom layer 12 from the outside to the inside of the multi-layered preform 10.

The outer layer 11 is made of a first material, which forms the outer layer 11 as a transparent layer. Preferably, the first material is polyethylene terephthalate (PET). It will be appreciated by those skilled in the art that the first material may also be polypropylene (PP), polyethylene terephthalate-1, 4-cyclohexanedimethanol (PETG).

The bottom layer 12 is made of a second material, the second material is different from the first material, the bottom layer formed by the second material is a light-tight layer, the second material is a mixed material of the outer layer material (namely, the first material) and color master, the weight proportion of the color master accounts for 5-20% of the weight proportion of the whole second material, the color master is selected from Huarun imitation porcelain, glous light-blocking agent (L ACTRA), Holland color light-blocking agent or other high-brightness color master, the main function of the color master is that the color master is used as the bottom color of the whole bottle blank, the color of the bottle blank and the color of the bottle are determined, the light-blocking effect is achieved, the color master cannot be used as a forming material alone, the color master is mixed with the first material (PET, PP and PEGT), the first material is used as a carrier of the color master, the color master and the first material is plasticized and then enters an injection molding process, the color master is different according to different colors, the deeper the light-blocking ratio is stronger, the lower the light-blocking ratio is the first material is used as the energy consumption of the first material, the first material is used as the carrier, the first material is used as the light-blocking material, the first material is used as the second material, the high-blocking material, the light-blocking material, the first material is used for plasticizing-blocking material, the high-blocking material is used for plasticizing-light-blocking effect is used for plasticizing-blocking effect of the plasticizing-blocking material, the plasticizing-blocking effect is not used for plasticizing-blocking effect plasticizing-.

The multilayer bottle blank adopts a multilayer co-injection molding mode, and the outer layer 11 and the bottom layer 13 have different injection molding sources during injection molding because the outer layer 11 and the bottom layer 12 are made of different materials.

The invention not only researches and develops the proportion of the materials of each layer of the bottle blank, but also researches and designs the thickness of each layer of the bottle blank. As shown in FIG. 4, in the present invention, the thickness W1 of the outer layer 11 is greater than the thickness W2 of the bottom layer 12, i.e., W2 < W1.

Specifically, the thickness ratio of the outer layer thickness W1 to the bottom layer thickness W2 is 1: 1.5-1: 2.3, preferably 1: 1.85. The weight of the outer layer 11 accounts for 60 to 70 percent of the total weight of the whole bottle blank, and is preferably 65 percent; the weight of the bottom layer 12 is 30% to 40%, preferably 35%, of the total weight of the entire preform.

The above-described multi-layer preform 10 is formed into a plastic bottle having a non-light-transmitting effect and a ceramic-like appearance through a blow molding process.

When light L1 is irradiated onto the outer surface of the bottle (i.e., the outer surface of the outer layer 11), a portion of the light is reflected back to form a reflected light L2, another portion of the light enters the outer layer 11 and is refracted to form a refracted light L03, during the refraction process, a portion of the refracted light L3 is absorbed by the outer layer 11, another portion of the refracted light reaches the interface between the outer layer 11 and the bottom layer 12, and is reflected and refracted to form a reflected light L4 and a refracted light L5, and a reflected light L4 is returned to the air again, so that the reflection effect of the light is enhanced, the visible angle of the light is widened, a refracted light L5 enters the bottom layer 12, during the refraction process, a portion of the refracted light L5 is absorbed by the bottom layer 12, and another portion of the refracted light is refracted again to form a refracted light L6, and a refracted light L6 after 3 times of refraction is very weak, so that the transmittance of the bottle is very small and the light blocking property is strong.

The outer layer 11 is set to be thicker, because the thicker the outer layer (transparent layer), the stronger the texture, the better the surface refraction and light scattering effect, and the refraction light reflected by the bottom layer 12 makes the visible angle of the light wider, thus the better refraction and reflection effect can be obtained. The bottom layer 12 should be as thin as possible while ensuring light blocking, which is advantageous for the operability of the apparatus and controllability of the process on the one hand, and for better economy on the other hand.

As shown in fig. 6, the abscissa represents the wavelength of the irradiation light, the ordinate represents the transmittance, and the test objects are a T sample bottle and a Z sample bottle, wherein the bottom layer of the T sample bottle contains 20% of the china-like pigment master, and the bottom layer of the Z sample bottle contains 4% of the galois light-blocking agent master.

According to the light transmittance test results, the bottle of the present invention has a total light transmittance of 10% or less at a wavelength of 400 to 600nm, which is most sensitive to human eyes, and a total light transmittance of 1% or less at a wavelength of 400nm or less. According to the test result, the bottle using the Carlos light retardant as the color master has better light resistance, and the total light transmittance of the bottle with the wavelength of 400-600 nm is less than 5%.

Based on the design of the multilayer structure, the materials of each layer and the thickness of each layer of the bottle blank, the plastic bottle has the characteristics of bright surface, strong reflectivity and lighttightness, thereby presenting the appearance of ceramic texture, and the lighttightness can effectively prevent the quality of products filled in the bottle from being influenced by light.

The multi-layer preform of the present invention is suitable for use with various different shaped preforms and plastic bottles and is not limited to the preform shapes described above in the preferred embodiment of fig. 3. As shown in fig. 7, which shows another shape assumed by the multi-layered preform of the present invention, in this embodiment, the multi-layered preform 20 is substantially cylindrical, and the wall 2 of the preform has the same two-layer structure as the preferred embodiment described above, i.e., an outer layer 21 and a bottom layer 22.

Example 2

In a second embodiment, as shown in fig. 8 and 9, the wall 1-1 of the multi-layered preform 10-1 has a three-layered structure including an outer layer 11-1, a bottom layer 12-1, and an inner layer 13-1.

The outer layer 11-1 and the inner layer 13-1 are made of the same material and are made of a first material, and the outer layer 11-1 and the inner layer 13-1 made of the first material are transparent layers. The bottom layer 12 is made of a second material, different from the first material, and the bottom layer formed by the second material is an opaque layer. The composition and ratio of the first material and the second material were the same as in example 1 described above.

The multilayer bottle blank 10-1 adopts a multilayer co-injection molding mode, and because the outer layer 11-1 and the inner layer 13-1 are made of different materials from the bottom layer 12-1, and the outer layer 11-1 and the inner layer 13-1 are made of the same material, the outer layer 11-1 and the inner layer 13-1 have a common injection molding source and the bottom layer 12-1 has an independent injection molding source during injection molding.

As shown in FIG. 9, in this embodiment, the thickness W1 of the outer layer 11-1 is greater than the thickness W3 of the inner layer 13-1, and the thickness W2 of the bottom layer 12-1 is less than the thickness W3 of the inner layer 13-1, i.e., the outer layer 11-1 is thickest, the bottom layer 12-1 is thinnest, and the relationship among the thickness W1 of the outer layer, the thickness W2 of the bottom layer, and the thickness W3 of the inner layer is W2 < W3 < W1.

Specifically, the thickness ratio of the outer layer thickness W1, the bottom layer thickness W2 and the inner layer thickness W3 is 3.5: 1: 1.1-6: 1: 1.2, preferably 4.53: 1: 1.13. The outer layer thickness W1 accounts for 60-72% of the total thickness W0 of the whole bottle wall, the inner layer thickness W3 accounts for 15.4-21.4% of the total thickness W0 of the whole bottle wall, and the bottom layer thickness W2 accounts for 12.6-18.6% of the total thickness W0 of the whole bottle wall. Preferably, the outer layer thickness W1 is 66% of the total thickness W0 of the entire bottle wall, and the weight of the outer layer 11-1 is 68% of the entire preform weight; the thickness W2 of the bottom layer accounts for 15.6 percent of the total thickness W0 of the whole bottle wall, and the weight of the bottom layer 12-1 accounts for 15 percent of the weight of the whole bottle blank; the inner layer thickness W3 accounted for 18.4% of the total thickness W0 of the entire bottle wall, and the weight of the inner layer 13-1 accounted for 18% of the entire preform weight.

The bottle blank in the second embodiment is added with the inner layer 13-1 compared with the bottle blank in the first embodiment, and the inner layer 13-1 is a transparent layer, so that the light resistance of the bottle is improved on one hand, and the smoothness of the inner wall of the bottle is improved on the other hand, so that the bottle has ceramic texture when viewed from the outside, and the inside of the bottle also has ceramic texture, but the manufacturing cost of the second embodiment is higher than that of the first embodiment.

In other embodiments, the multilayer bottle preform of the present invention may also have a 4-layer structure or more, the outermost layer of the multilayer structure is a transparent layer made of a PET material, and the bottom layer is made of a mixture of a PET material and a color master to form a light-impermeable layer, the more the number of the light-impermeable layers is, the stronger the light-blocking capability is, and therefore, the number of the light-impermeable layers may be set according to actual requirements.

The above detailed description merely describes preferred embodiments of the present invention and does not limit the scope of the invention. Without departing from the spirit and scope of the present invention, it should be understood that various changes, substitutions and alterations can be made herein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. The scope of the invention is defined by the claims.

Claims (12)

1. The multilayer bottle blank with the ceramic texture is characterized in that the wall of the multilayer bottle blank is of a two-layer structure at least, the multilayer bottle blank comprises an outer layer and a bottom layer from outside to inside, the outer layer is made of a first material, the bottom layer is made of a second material, the second material is different from the first material, the outer layer made of the first material is a transparent layer, the bottom layer made of the second material forms a non-transparent layer, the second material is a mixed material of the first material and color master, and the color master accounts for 5% -20% of the mixed material.

2. A multi-layered bottle preform with a ceramic texture as claimed in claim 1 wherein the color concentrate is selected from the group consisting of satin imitation porcelain, glomus light blocker, dutch color light blocker.

3. A multi-layered ceramic bottle preform as in claim 1 wherein the first material is selected from the group consisting of PET, PP, PETG.

4. A multi-layered ceramic bottle preform as in claim 1 wherein the outer layer is thicker than the bottom layer.

5. A multi-layered bottle preform with ceramic texture as claimed in claim 4, wherein the thickness ratio of the bottom layer and the outer layer ranges from 1: 1.5 to 1: 2.3.

6. A multi-layered bottle preform having a ceramic texture as claimed in claim 4, wherein the weight of the outer layer is 60 to 70% of the total weight of the bottle preform, and the weight of the bottom layer is 30 to 40% of the total weight of the bottle preform.

7. A multi-layer preform having a ceramic texture as claimed in claim 1 wherein said multi-layer preform further comprises an inner layer, said inner layer being innermost of said multi-layer preform, said inner layer being made of a first material and being a transparent layer.

8. A multi-layered ceramic bottle preform as in claim 7 wherein the outer layer is thicker than the inner layer and the bottom layer is thinner than the inner layer.

9. A multi-layered ceramic bottle preform as in claim 8 wherein the multi-layered preform is formed by multi-layered co-injection molding, the outer and inner layers having a common injection source, and the bottom layer having a separate injection source.

10. A bottle having a ceramic texture, which is obtained by blow molding the multilayer bottle preform according to any one of claims 1 to 9.

11. A bottle having a ceramic texture as set forth in claim 10, wherein the bottle has a total light transmittance at a wavelength of 400nm or less of 1% or less.

12. A bottle having a ceramic texture according to claim 10, wherein the bottle has a total light transmittance of 10% or less at a wavelength of 400 to 600 nm.

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